Estructura y configuración del movimiento

This thesis consists of the present introductory chapter (Chapter 1), a general discussion and conclusion chapter (Chapter 5) and the main body comprising of experimental chapters (Chapters 2-4) (see Table 1.2). The experimental chapters are publications (accepted or under review). All three chapters aim to quantify BTEX concentrations at the site (objective 1); with Chapter 2 focusing on diurnal variation of BTEX concentrations; Chapter 3 aiming to determine whether BTEX emissions exceed national and/or international occupational limits, and the implications thereof; while Chapter 4 investigated the potential occupational health and safety of workers at the site. Chapter 5 is a general discussion and providing overarching conclusions, drawing together the main findings. Each chapter has been formatted to the specific journal/publishers’

requirements, thus each of these chapters include substantial background information, a detailed methodological approach, as well as an abstract and a reference list. The tables and figures have been numbered for each journal paper and the pages of the thesis are numbered in chapter sequence. References are provided in each chapter.

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Table 1.2: Overview of experimental chapters, presented as manuscripts.

Chapter Title Aim Objectives Instruments Data details

Two BTEX concentrations

To determine the total volume of fuel dispensed and ambient

14 days in winter (02-15 July 2014).

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1.10 References

Alhaji, H., (2011). Air toxic assessment for short-term ambient air pilot study at a private house in Battlement Mesa, near oil and gas drilling site. MSc Dissertation.

Colorado State University.

Armas, O., Gómez, A., Mata, C., Ramos, Á., (2012). Particles emitted during the stops of an urban bus fuelled with ethanol–biodiesel–diesel blends. Urban Climate 2, 43–

54.

Askari, K., Pollard, S., Great Britain, Environment Agency, (2005). The UK approach for evaluating human health risks from petroleum hydrocarbons in soils.

Environment Agency, Bristol.

ATSDR, (2000). Toxicological profile for toluene. US Department of Health and Human Services, Agency for Toxic Substances and Disease Registry, USA.

ATSDR, (2007a). Toxicological profile for benzene. US Department of Health and Human Services, Agency for Toxic Substances and Disease Registry, USA.

ATSDR, (2007b). Draft toxicological profile for ethylbenzene. US Department of Health and Human Services, Agency for Toxic Substances and Disease Registry, USA.

ATSDR, (2007c). Toxicological profile for xylene. US Department of Health and Human Services, Agency for Toxic Substances and Disease Registry, USA.

Badjagbo, K., Loranger, S., Moore, S., Tardif, R., Sauvé, S., (2010). BTEX Exposures among Automobile Mechanics and Painters and Their Associated Health Risks. Human and Ecological Risk Assessment: An International Journal 16, 301–316.

Bruce, N., Perez-Padilla, R., Albalak, R., others, (2002). The health effects of indoor air pollution exposure in developing countries. Geneva: World Health Organization 11.

Brunekreef, B., Holgate, S.T., (2002). Air pollution and health. The Lancet 360, 1233–

1242.

Burtscher, H., (2005). Physical characterization of particulate emissions from diesel engines: a review. Journal of Aerosol Science 36, 896–932.

Capasso, S., Monaco, M., Iovino, P., Salvestrini, S., Vigliotti, M., (2007). Characterization of BTEX sources in a medium-size city by concentration statistical analysis and GIS technique. WIT Press, pp. 373–380.

Caprino, L., Togna, G.I., (1998). Potential Health Effects of Gasoline and Its Constituents:

A Review of Current Literature (1990-1997) on Toxicological Data.

Environmental Health Perspectives 106, 115–125.

25

Carvalho-Oliveira, R., (2005). Diesel emissions significantly influence composition and mutagenicity of ambient particles: a case study in São Paulo, Brazil.

Environmental Research 98, 1–7.

Chang, C.-C., Tsai, S.-S., Chiu, H.-F., Wu, T.-N., Yang, C.-Y., (2009). Traffic Air Pollution and Lung Cancer in Females in Taiwan: Petrol Station Density as an Indicator of Disease Development. Journal of Toxicology and Environmental Health, Part A 72, 651–657.

Chauhan, S.K., Saini, N., Yadav, V.B., 2014. Recent trends of volatile organic compounds in ambient air and its health impacts: a review. International Journal for Technology, 1 (8), 667-678.

Chen, C., Huang, C., Jing, Q., Wang, H., Pan, H., Li, L., Zhao, J., Dai, Y., Huang, H., Schipper, L., (2007). On-road emission characteristics of heavy-duty diesel vehicles in Shanghai. Atmospheric Environment 41, 5334–5344.

Chen, X., Zhang, G., Zhang, Q., Chen, H., (2011). Mass concentrations of BTEX inside air environment of buses in Changsha, China. Building and Environment 46, 421–

427.

Colman Lerner, J.E., Sanchez, E.Y., Sambeth, J.E., Porta, A.A., (2012). Characterization and health risk assessment of VOCs in occupational environments in Buenos Aires, Argentina. Atmospheric Environment 55, 440–447.

Crump, K., (2014). Meta-Analysis of Lung Cancer Risk from Exposure to Diesel Exhaust:

Study Limitations. Environmental Health Perspectives 122, A230–A230.

Das, M., Bhargava, S.K., Kumar, A., Khan, A., Bharti, R.S., Pangtey, B.S., Rao, G.S., Pandya, K.P., (1991). An investigation of environmental impact on health of workers at retail petrol pumps. Annals of Occupational Hygiene 35, 347–352.

Demirel, G., Ozden, O., Dogeroglu, T., Gaga, E.O., (2014). Personal exposure of primary school children to BTEX, NO(2) and ozone in Eskisehir, Turkey: relationship with indoor/outdoor concentrations and risk assessment. Science of the Total Environment 473-474, 537–548.

Duarte-Davidson, R., Courage, C., Rushton, L., Levy, L., (2001). Benzene in the environment: an assessment of the potential risks to the health of the population. Occupational and Environmental Medicine 58, 2–13.

Durmusoglu, E., Taspinar, F., Karademir, A., (2010). Health risk assessment of BTEX emissions in the landfill environment. Journal of Hazardous Materials 176, 870–

877.

Edokpolo, B., Yu, Q., Connell, D., (2014). Health Risk Assessment of Ambient Air Concentrations of Benzene, Toluene and Xylene (BTX) in Service Station Environments. International Journal of Environmental Research and Public Health 11, 6354–6374.

26

Fenger, J., (1999). Urban air quality. Atmospheric Environment 33, 4877–4900.

Ferreira, S.L., dos Santos, A.M., de Souza, G.R., Polito, W.L., (2008). Analysis of the emissions of volatile organic compounds from the compression ignition engine fueled by diesel–biodiesel blend and diesel oil using gas chromatography.

Energy 33, 1801–1806.

Frey, H.C., Rouphail, N.M., Zhai, H., Farias, T.L., Gonçalves, G.A., (2007). Comparing real-world fuel consumption for diesel- and hydrogen-fueled transit buses and implication for emissions. Transportation Research Part D: Transport and Environment 12, 281–291.

Gallego, E., Roca, F.X., Guardino, X., Rosell, M.G., (2008). Indoor and outdoor BTX levels in Barcelona City metropolitan area and Catalan rural areas. Journal of Environmental Sciences 20, 1063–1069.

Gonzalez-Flesca, N., Vardoulakis, S., Cicolella, A., (2002). BTX concentrations near a stage II implemented petrol station. Environmental Science and Pollution Research 9, 169–174.

Han, X., Naeher, L.P., (2006). A review of traffic-related air pollution exposure assessment studies in the developing world. Environment International 32, 106–

120.

Hein, R., Aung, B.T., Lwin, O., Zaidi, S.H., (1989). Assessment of occupational benzene exposure in petrol filling stations at Rangoon. Annals of Occupational Hygiene 33, 133–136.

Hoque, R.R., Khillare, P.S., Agarwal, T., Shridhar, V., Balachandran, S., (2008). Spatial and temporal variation of BTEX in the urban atmosphere of Delhi, India. Science of The Total Environment 392, 30–40.

Huang, L., Mo, J., Sundell, J., Fan, Z., Zhang, Y., (2013). Health Risk Assessment of Inhalation Exposure to Formaldehyde and Benzene in Newly Remodeled Buildings, Beijing. PLoS ONE 8, e79553 doi:10.1371/journal.pone.0079553.

Karakitsios, S.P., Delis, V.K., Kassomenos, P.A., Pilidis, G.A., (2007a). Contribution to ambient benzene concentrations in the vicinity of petrol stations: Estimation of the associated health risk. Atmospheric Environment 41, 1889–1902.

Karakitsios, S.P., Papaloukas, C.L., Kassomenos, P.A., Pilidis, G.A., (2007b). Assessment and prediction of exposure to benzene of filling station employees. Atmospheric Environment 41, 9555–9569.

Kayak, H.O., Thompson, R., (2007). Estimating the health impact of diesel fuel use from road based transport. Transport 5: 7.

Keretetse, G.S., Laubscher, P.J., Du Plessis, J.L., Pretorius, P.J., Van Der Westhuizen, F.H., Van Deventer, E., Van Dyk, E., Eloff, F.C., Van Aarde, M.N., Du Plessis, L.H.,

27

(2008). DNA Damage and Repair Detected by The Comet Assay in Lymphocytes of African Petrol Attendants: A Pilot Study. Annals of Occupational Hygiene 52, 653–662.

Kitwattanavong, M., Prueksasit, T., Morknoy, D., Tunsaringkarn, T., Siriwong, W., (2013).

Health risk assessment of petrol station workers in the inner city of Bangkok, Thailand, to the exposure to BTEX and carbonyl compounds by inhalation.

Human and Ecological Risk Assessment: An International Journal 19, 1424–1439.

Król, S., Zabiegala, B., Namieśnik, J., (2012). Measurement of benzene concentration in urban air using passive sampling. Analytical and Bioanalytical Chemistry 403, 1067–1082.

Liu, Z., Ge, Y., Johnson, K.C., Shah, A.N., Tan, J., Wang, C., Yu, L., (2011). Real-world operation conditions and on-road emissions of Beijing diesel buses measured by using portable emission measurement system and electric low-pressure impactor. Science of the Total Environment 409, 1476–1480.

Majumdar, D., Dutta, C., Mukherjee, A.K., Sen, S., (2008). Source apportionment of VOCs at the petrol pumps in Kolkata, India; exposure of workers and assessment of associated health risk. Transportation Research Part D: Transport and Environment 13, 524–530.

Maroko, A.R., (2012). Using air dispersion modeling and proximity analysis to assess chronic exposure to fine particulate matter and environmental justice in New York City. Applied Geography 34, 533–547.

Moolla, R., Valsamakis, S.K., Curtis, C.J., Piketh, S.J., (2013). Occupational Health Risk Assessment of Benzene and Toluene at a landfill in Johannesburg, South Africa, in: Safety and Security Engineering V. Presented at the Safety and Security Engineering V, Wessex Institute, Rome, Italy, pp. 701–713.

Moore, A., Figliozzi, M., (2011). Bus Stop Air Quality: An Empirical Analysis of Shelter Orientation Effects on Transit User’s Exposure to Particulate Matter, in: Western

ITE Conference Proceedings

Assessing the impact of petrol stations on their immediate surroundings. Journal of Environmental Management 91, 2754–2762.

Moy, P., (2005). A health risk comparison of landfill disposal and waste-to-energy (WTE) treatment of municipal solid wastes in New York City (NYC). MSc Dissertation

28

Columbia University

http://www.seas.columbia.edu/earth/wtert/sofos/Moy_ms_thesis.pdf.

Murena, F., (2007). Air quality nearby road traffic tunnel portals: BTEX monitoring.

Journal of Environmental Sciences 19, 578–583.

Nightingale, J.A., Maggs, R., Cullinan, P., Donnelly, L.E., Rogers, D.F., Kinnersley, R., Fan Chung, K., Barnes, P.J., Ashmore, M., Newman-Taylor, A., (2000). Airway inflammation after controlled exposure to diesel exhaust particulates. American Journal of Respiratory and Critical Care Medicine 162, 161–166.

Oesch, F., Fuchs, J., Vaupel, J., Hengstler, J.G., (1995). DNA single strand break analysis in mononuclear blood cells of petrol pump attendants. International Archives of Occupational and Environmental Health 67, 35–39.

Onunkwor, B., Dosumu, O., Odukoya, O., Arowolo, T., Ademuyiwa, O., (2004).

Biomarkers of lead exposure in petrol station attendants and auto-mechanics in Abeokuta, Nigeria: effect of 2-week ascorbic acid supplementation.

Environmental Toxicology and Pharmacology 17, 169–176.

Pandya, K.P., Rao, G.S., Dhasmana, A., Zaidi, S.H., (1975). Occupational exposure of petrol pump workers. Annals of Occupational Hygiene 18, 363–364.

Pavlova, A., Ivanova, R., (2003). GC methods for quantitative determination of benzene in gasoline. Acta Chromatographica, 215–225.

Pennequincardinal, A., Plaisance, H., Locoge, N., Ramalho, O., Kirchner, S., Galloo, J., (2005a). Performances of the Radiello diffusive sampler for BTEX measurements: Influence of environmental conditions and determination of modelled sampling rates. Atmospheric Environment 39, 2535–2544.

Pennequincardinal, A., Plaisance, H., Locoge, N., Ramalho, O., Kirchner, S., Galloo, J., (2005b). Dependence on sampling rates of Radiello diffusion sampler for BTEX measurements with the concentration level and exposure time. Talanta 65, 1233–1240.

Pilidis, G.A., Karakitsios, S.P., Kassomenos, P.A., Kazos, E.A., Stalikas, C.D., (2009).

Measurements of benzene and formaldehyde in a medium sized urban environment. Indoor/outdoor health risk implications on special population groups. Environmental Monitoring and Assessment 150, 285–294.

Pinedo, J., Ibáñeza, R., Irabiena, Á., (2012). Risk Assessment of Total Petroleum Hydrocarbons (TPHs) Fractions. Chemical Engineering 28 http://www.aidic.it/cet/12/28/011.pdf.

Polosa, R., Salvi, S., di Maria, G.U., (2002). Allergic susceptibility associated with diesel exhaust particle exposure: clear as mud. Archives of Environmental Health: An International Journal 57, 188–193.

29

Porta, D., Milani, S., Lazzarino, A.I., Perucci, C.A., Forastiere, F., (2009). Systematic review of epidemiological studies on health effects associated with management of solid waste. Environmental Health 8, 60 doi:10.1186/1476-069X-8-60.

Rasmussen, R.A., Khalil, M.A.K., (1983). Atmospheric benzene and toluene. Geophysical Research Letters 10, 1096–1099.

Rekhadevi, P.V., Rahman, M.F., Mahboob, M., Grover, P., (2010). Genotoxicity in Filling Station Attendants Exposed to Petroleum Hydrocarbons. Annals of Occupational Hygiene 54, 944–954.

Rushton, L., Schnatter, A.R., Tang, G., Glass, D.C., (2014). Acute myeloid and chronic lymphoid leukaemias and exposure to low-level benzene among petroleum workers. British Journal of Cancer 110, 783–787.

SAPIA, (2000). Petrol and Diesel in South Africa and the impact on air quality – November 2008. South African Petroleum Industry Association. Online http://www.SAPIA, 2008/publications/special-interest.html

Schneider, P., Gebefügi, I., Richter, K., Wölke, G., Schnelle, J., Wichmann, H., Heinrich, J., others, (2001). Indoor and outdoor BTX levels in German cities. Science of the Total Environment 267, 41–51.

Shin, H.-S., Kwon, O.-S., (2000). The simultaneous analysis of benzene, toluene, ethylbenzene, o, m, p-xylenes and total petroleum hydrocarbons in soil by GC-FID after ultra-sonication. Bulletin-Korean Chemical Society 21, 1101–1105.

Shoeib, M., Harner, T., (2002). Characterization and Comparison of Three Passive Air Samplers for Persistent Organic Pollutants. Environmental Science & Technology 36, 4142–4151.

Singh, R.K., Ramteke, D.S., Juneja, H.D., Pandya, G.H., (2013). Ambient Air Quality Monitoring in Terms of Volatile Organic Compounds (VOCs) Occupational Health Exposure at Petroleum Refinery. International Journal of Environmental Protection 3 (7).

Smith, K.R., (1993). Fuel combustion, air pollution exposure, and health: the situation in developing countries. Annual Review of Energy and the Environment 18, 529–

Health effects of diesel exhaust emissions. European Respiratory Journal 17, 733–746.

30

Tondel, M., Persson, B., Carstensen, J., (1995). Myelofibrosis and benzene exposure.

Occupational Medicine 45, 51–52.

Truc, V.T.Q., Kim Oanh, N.T., (2007). Roadside BTEX and other gaseous air pollutants in relation to emission sources. Atmospheric Environment 41, 7685–7697.

Tunsaringkarn, T., Siriwong, W., Rungsiyothin, A., Nopparatbundit, S., (2012).

Occupational exposure of gasoline station workers to BTEX compounds in Bangkok, Thailand. The International Journal of Occupational and Environmental

Medicine 3

http://www.theijoem.com/ijoem/index.php/ijoem/article/viewArticle/133 . Udonwa, N.E., Uko, E.K., Ikpeme, B.M., Ibanga, I.A., Okon, B.O., (2009). Exposure of

Petrol Station Attendants and Auto Mechanics to Premium Motor Sprit Fumes in Calabar, Nigeria. Journal of Environmental and Public Health 2009, 1–5.

U.S. Environmental Protection Agency, (2010). Waste and clean-up risk assessment glossary: U.S. Environmental Protection Agency. May 26, 2010. Online http://www.epa.gov/oswer/riskassessment/superfund_toxicity.htm

Wiwanitkit, V., (2008). Estimating cancer risk due to benzene exposure in some urban areas in Bangkok. Stoichiometric Environmental Research Risk Assessment 22, 135–137.

World Health Organization, (2012). IARC: DIESEL ENGINE EXHAUST CARCINOGENIC, in:

IARC Monographs on the Evaluation of Carcinogenic Risks to Humans. Lyon, France http://www.iarc.fr/en/media-centre/iarcnews/2012/mono105-info.php.

Yu, Q., Li, T., (2014). Evaluation of bus emissions generated near bus stops. Atmospheric Environment 85, 195–203.

Zabiegala, B., Urbanowicz, M., Szymanska, K., Namiesnik, J., (2010). Application of passive sampling technique for monitoring of BTEX concentration in urban air:

field comparison of different types of passive samplers. Journal of Chromatographic Science 48, 167–175.

Zalel, A., Yuval, Broday, D.M., (2008). Revealing source signatures in ambient BTEX concentrations. Environmental Pollution 156, 553–562.

Zhang, Y., Mu, Y., Liu, J., Mellouki, A., (2012). Levels, sources and health risks of carbonyls and BTEX in the ambient air of Beijing, China. Journal of Environmental Sciences 24, 124–130.

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CHAPTER TWO: BTEX CONCENTRATIONS INFLUENCED BY

In document La sociedad de Extremadura desde la sociología. Claves para entender una realidad social en transformación (página 115-119)